CN108007031B - Environment-friendly efficient energy-saving full-automatic ice maker - Google Patents

Abstract

The invention discloses an environment-friendly high-efficiency energy-saving full-automatic ice maker, which comprises an ice making chamber, a conveying channel, a water tank, a speed reducer, a hydraulic cylinder, an ice outlet frame and a control system, wherein a main compressor and an auxiliary compressor are adopted to simultaneously work during ice making, the ice making speed is high, and the ice mass is high; the heater is arranged between the ice cubes, the periphery of the ice cubes can be quickly separated from the ice cubes during ice discharging, the ice discharging speed is high due to the dragging effect of the clamping grooves at the lower part, after the ice cubes come out, the lower part of the ice cubes are limited by the clamping grooves at the side surfaces and can only move along the sliding grooves, the conveying is safe and reliable, the main compressor and the auxiliary compressor can refrigerate and heat the ice, the ice making speed is improved, the lower frame of the ice making is buckled by the safety lock catch, the ice cubes cannot slide downwards, and the safety of personnel and the quality of the ice cubes are ensured; the water in the water tank can be recycled in turn, so that the energy is saved, the consumption is reduced, and the cost is saved; the ice making and discharging speed is high, and the working efficiency is comprehensively improved by 3 times compared with similar products; time and labor are saved, the labor amount of workers is greatly reduced, and the labor cost is reduced.

Description

Environment-friendly efficient energy-saving full-automatic ice maker

Technical Field

The invention belongs to the field of ice making, and particularly relates to an environment-friendly efficient energy-saving full-automatic ice maker.

Background

Ice makers are widely used to supply ice cubes for commercial operations, and existing ice makers generate ice by directly contacting the ice maker with an evaporator, thereby achieving exchange and utilization of cold energy. At present, most ice makers sold on the market are large in volume, low in ice making yield and capable of making ice for 10-15T at a time, and about 50kg of ice per ice block, but have several defects in the production process: 1. the ice cubes generated by the common ice maker are square or rectangular, the ice cubes can fall onto the conveying plate after being formed, however, the water is in a right cuboid shape after being frozen in the ice chamber, the side surfaces of the ice cubes are clung to the evaporator plate, the ice cubes are slowly melted and difficult to fall, manual assistance is needed, the time consumption is long, and the working efficiency is low; 2. the ice maker uses liquid ammonia to make ice before, is toxic to human body, and uses Freon R22 to make ice later, and also pollutes the environment, so that the ice maker is not environment-friendly; 3. before working, the conveying plate is lifted to block the lower part of the ice chamber, and the conveying plate is lifted through the screw rod, so that the conveying plate can shift downwards due to the heavy ice mass, and the product quality is affected; 4. the ice blocks can fall onto the conveying plate after being formed, naturally slide off in the conveying process, and are required to be manually limited, so that time and labor are wasted; 5. the water consumption is large, the power consumption is large, 6, the manual handling of ice cubes is needed, the labor capacity of workers is large, the danger coefficient is high, the safety is not guaranteed, and the working efficiency is low, so that technical research and improvement on the ice maker are needed, and the defects are overcome.

Disclosure of Invention

In order to solve the problems, the invention discloses an environment-friendly high-efficiency energy-saving full-automatic ice maker, which has the advantages of good ice quality, high ice discharging speed, safe and reliable ice conveying, consumption reduction, energy saving, time saving, labor saving and improvement of working efficiency.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the utility model provides an environment-friendly high-efficient energy-saving full-automatic ice maker, includes ice making room, conveying passage, water tank, speed reducer, pneumatic cylinder, goes out ice frame and control system, ice making room side is equipped with the speed reducer, conveying passage sets up in ice making room below, and conveying passage bottom is equipped with the underframe, the underframe surface is equipped with a plurality of bottom evaporator plates, is equipped with vertical draw-in groove on the spacing evaporator plate, bottom evaporator plate intercommunication auxiliary compressor, is equipped with the spout between two adjacent draw-in grooves, and the underframe side passes through wire rope with the speed reducer and is connected, the pneumatic cylinder sets up in conveying passage one side, connects the ejector on the telescopic link of pneumatic cylinder, the ejector is higher than the underframe height, it is equipped with the ice-cube conveyor to go out ice frame setting in the conveying passage opposite side, goes out to be equipped with rotatable ice pouring frame between ice pouring frame and the conveying passage, goes out ice frame surface and is equipped with the ice-cube conveyor, the ice-cube conveyor below is equipped with ice-cube conveyor motor, the ice-cube room is a plurality of ice-cube houses, the ice-cube is the shape, bottom evaporator plate intercommunication auxiliary compressor, two sides are the air core evaporator, are the circulating pipe, the circulating pipe is equipped with between the water pump, the water inlet, the water pump is equipped with in addition, the circulating pipe, the water pump is equipped with, the water pump is connected to the water pump, the water pump is connected to the side, the water pump is equipped with the water pump, the water pump is connected to the water pump, the water pump is connected.

As an improvement of the invention, each side of the ice cube house above is 1-30mm smaller than each side below.

As an improvement of the invention, a hydraulic rod is connected below the ice discharging frame.

As an improvement of the invention, a railing is arranged on the outer side of the ice discharging frame.

As an improvement of the invention, the main compressor is a screw refrigeration compressor.

As an improvement of the invention, the main compressor is connected with the hollow evaporator through a first pipeline.

As an improvement of the invention, the lower edge of the ice making chamber is provided with a sealing strip.

As an improvement of the invention, the ice pouring frame is provided with a slideway matched with the chute.

As an improvement of the invention, the auxiliary compressor is communicated with the bottom evaporator plate through a second pipeline.

As an improvement of the invention, the clamping groove is in an inverted trapezoid shape.

As an improvement of the invention, the hollow evaporator is a trapezoid metal product with hollow and separated tooth-shaped inner cavities.

The beneficial effects of the invention are as follows:

1. when the ice is made, the main compressor and the auxiliary compressor are adopted to work simultaneously, the ice making speed is high, and the ice quality is high;

2. the heater is arranged between the ice cubes, so that the periphery of the ice cubes can be quickly separated from the ice cubes when ice is discharged, and the ice discharging speed is high due to the dragging action of the clamping groove;

3. after ice is discharged, the ice blocks move in the chute, and the conveying is safe and reliable;

4. the main compressor and the auxiliary compressor can not only refrigerate but also heat, so that the ice making speed is improved;

5. the environment-friendly refrigerant is adopted, so that the environment is not polluted, and the human body is not poisoned;

6. the lower frame is buckled by the safety lock catch when ice is made, so that the lower frame does not slide downwards, and the safety of personnel and the quality of ice cubes are ensured;

7. the water in the water tank can be used for multiple times, so that the energy is saved, the consumption is reduced, and the cost is saved;

8. the ice making and discharging speed is high, and the working efficiency is improved by 3 times;

9. time and labor are saved, the labor amount of workers is greatly reduced, and the labor cost is reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of the lower frame according to the present invention.

Fig. 3 is a cross-sectional view of a lower frame according to the present invention.

Fig. 4 is a schematic top view of a conduit and inlet conduit of the main compressor of the present invention.

Fig. 5 is a schematic view of an ice cube container and hollow evaporator according to the present invention.

Fig. 6 is a schematic view of an ice bank according to the present invention.

Fig. 7 is a schematic view of a separator according to the present invention.

Fig. 8 is a side view of a separator according to the present invention.

Fig. 9 is a top view of the ice chute according to the present invention.

List of reference numerals:

1. the ice making device comprises an ice making room, 2, a conveying channel, 3, a water tank, 4, a speed reducer, 5, a hydraulic cylinder, 6, an ice discharging frame, 7, a control system, 8, a lower frame, 9, a bottom evaporator plate, 10, a clamping groove, 11, a secondary compressor, 12, a sliding groove, 13, a steel wire rope, 14, an ice pushing device, 15, an ice pouring frame, 16, an ice cube house, 17, a hollow evaporator, 18, a main compressor, 19, a circulating pipe, 20, a heater, 21, a spray head, 22, a water inlet pipe, 23, a water pump, 24, a water inlet, 25, a safety catch, 26, a hydraulic rod, 27, a railing, 28, a sealing strip, 29, a slideway, 30, a pipeline II, 31, a pipeline I, 32, a steel wire rope connecting point, 33, a safety catch connecting point, 34, a partition plate, 35, a locating pin, 36, a pulley, 37, an ice cube conveying belt, 38 and an ice cube conveying belt motor.

Detailed Description

The present invention is further illustrated in the following drawings and detailed description, which are to be understood as being merely illustrative of the invention and not limiting the scope of the invention. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

As shown in the figure, the environment-friendly efficient energy-saving full-automatic ice maker comprises an ice making chamber 1, a conveying channel 2, a water tank 3, a speed reducer 4, a hydraulic cylinder 5, an ice discharging frame 6 and a control system 7, wherein the speed reducer 4 is arranged on the side surface of the ice making chamber 1, the conveying channel 2 is arranged below the ice making chamber 1, a lower frame 8 is arranged at the bottom of the conveying channel 2, a plurality of hollow bottom evaporator plates 9 are arranged on the surface of the lower frame 8, vertical clamping grooves 10 are arranged on two sides of the upper edge of each bottom evaporator plate 9, the bottom evaporator plates 9 are communicated with a secondary compressor 11, sliding grooves 12 are arranged between two adjacent bottom evaporator plates, the side edge of the lower frame 8 is connected with the speed reducer 4 through a steel wire rope 13, the hydraulic cylinder 5 is arranged on one side of the conveying channel 2, an ice pushing device 14 is connected on a telescopic rod of the hydraulic cylinder 5, and the ice pushing device 14 is higher than the lower frame, the ice discharging frame 6 is arranged on the other side of the conveying channel 2, a rotatable ice pouring frame 15 is arranged between the ice discharging frame 6 and the conveying channel 2, an ice block conveying belt 37 is arranged on the surface of the ice discharging frame 6, an ice block conveying belt motor 38 is arranged below the ice block conveying belt 37, a plurality of ice blocks 16 are arranged in the ice making chamber, each ice block 16 is in a quadrangular frustum shape, two sides of each ice block 16 are hollow evaporators 17, the other two sides are partition boards 34, the hollow evaporators 17 are communicated with a main compressor 18, circulating pipes 19 are arranged in the partition boards 34, a heater 20 is arranged between the circulating pipes 19, a spray head 21 is arranged above each ice block, the spray head 21 is arranged on a water inlet pipe 22, the water inlet pipe 22 is connected with different water pumps 23 in the circulating pipes and the water tank, a water inlet 24 is arranged on the side of the water tank 3, a safety lock catch 25 is arranged at the lower edge of the ice making chamber 1, the main compressor 18 and the auxiliary compressor 11, the hydraulic cylinder 5, the ice pouring frame 15, the water pump 23, the heater 20 and the ice conveying belt motor 38 are connected with the control system 7.

The normal principle of ice making machines is: the refrigerating system uses freon R22 as a refrigerant (R22, but R22 belongs to HCFCL refrigerant, has great harm to an ozone layer and is about to be limited and forbidden to use), the lower frame 8 is lifted to form a closed space with an ice cube room during operation, water is filled up to an upper opening of the ice cube room by using a water pipe (the process takes one half hour), the main compressor 18 is started again, the main compressor produces cold air, the water is condensed into ice cubes by an evaporator, when the ice cubes are condensed to a certain thickness, a film of water is formed between the ice cubes and the evaporator wall by adopting a heat pump mode, the ice cubes freely fall on a tray below by virtue of the action of gravity (the time is 1 hour), and are carried out again after being pulled down by a worker, and the next circulation is realized.

The environment-friendly efficient energy-saving full-automatic ice maker is the same as a normal ice maker in principle, and is different in that a plurality of improvements are made on an internal structure, the ice making speed is higher, the ice discharging is quick, the environment is protected, the labor cost is reduced, and the cost is saved.

Different point 1: the original square ice cube house is changed into a quadrangular frustum shape, and the ice cube house is small in upper part and large in lower part, so that ice can be discharged conveniently, as shown in fig. 5.

Different point 2: before making ice-cubes, a water pump is connected with a pipe before making ice-cubes, water is needed to be filled up to the upper opening of the ice-cubes 16 (1.5 hours are needed), then the main compressor 18 is started, the lower frame 8 is lifted up to form a closed space with the ice-cubes, the water can be started up by the spray head above until the water is continuously filled up to a proper water level, the main compressor 18 is not needed to be started after the water is fully filled up, and the water filling time is shortened by more than half.

Different point 3: the circulation pipe 19 is arranged in the side partition plate 34 of the ice cube house, the heater 20 is arranged between the circulation pipes 19, as shown in fig. 8 and 9, the circulation pipe 19 is used for circulating water in the water tank through the water pump; when ice is discharged, the heater 20 is started to rapidly heat water, heat is radiated to the inner wall of the partition 34, meanwhile, the main compressor is changed into a heating mode, hot air is introduced into the hollow evaporator 17, so that ice bonded between ice cubes and the inner wall of the ice cube house 16 is melted, and ice cubes fall conveniently.

Different point 4: the surface of the lower frame 8 is provided with a plurality of hollow bottom evaporator plates 9, the bottom evaporator plates 9 are provided with inverted trapezoidal clamping grooves 10, as shown in fig. 3, the clamping grooves 10 are hooked on the side surface of ice during ice making, the lower frame 8 falls down when ice is discharged, and meanwhile, the clamping grooves 10 drag ice cubes downwards, so that ice discharging is faster. By improving the three points, the ice-discharging speed is shortened to less than 10 minutes from the original four hours, and the speed is improved by more than 20 times.

Different point 5: the ice maker adopts environment-friendly refrigerants, such as R134A, R410A, R407C, R417C, R404A, R507, R23, R508, R508B, R152A and the like, the working pressure is 40-60% higher than the normal machine pressure, the ice making speed is high, and the ice maker is environment-friendly and free from any environmental pollution.

Different points 6: the main compressor and the auxiliary compressor are adopted to simultaneously work when ice is made, the main compressor mainly plays a role in making ice in the ice cube house 16, the auxiliary compressor 11 is connected with the hollow bottom evaporator plate 9, the ice is simultaneously made at the bottom of the ice cube house 16, the ice making speed is increased, the ice making is uniform, and the ice cube quality is high.

Different point 7: after the ice making is finished, the lower frame 8 falls down, simultaneously the bottom of the ice blocks synchronously descends in the chute, after the ice blocks come out, the hydraulic cylinder 5 is started to drive the ice pusher 14 to push the ice blocks outwards along the chute, the ice blocks are limited by the side clamping grooves 10 and can only move along the chute 12, as shown in fig. 2, the ice blocks cannot slide everywhere, manual assistance is not needed, and the conveying is safe and reliable.

Different point 8: the auxiliary compressor 11 is added, auxiliary refrigeration is performed during ice making, and ice is heated and melted during ice discharging, so that ice cubes can move along the chute 12 conveniently, and the ice discharging speed is improved.

Different points 9: as shown in fig. 1, the ice discharging frame 6 is arranged at the other side of the conveying channel 2, a rotatable ice discharging frame 15 is arranged between the ice discharging frame 6 and the conveying channel 2, a probe is arranged at the inner side of the ice discharging frame 15, when the situation that ice cubes move along a chute to be discharged from the conveying channel 2 is detected, the ice discharging frame 15 rotates outwards and is placed on the ice discharging frame 6, a hydraulic rod 26 is connected below the ice discharging frame 6, the height of the ice discharging frame 6 can be adjusted, the ice cubes slide from the front end of the ice discharging frame 15 (the highest outlet of the ice discharging frame 6 is in a slope shape under the action of gravity) to the rear end of the ice discharging frame 15 and are conveyed to an ice cube conveying belt 37, finally, the ice cubes are moved to a next procedure under the driving of an ice cube conveying belt motor 38, all ice cubes are ensured to flow out orderly by the chute 29, the safety and rapidness are ensured, the automatic operation of workers is reduced, and the working efficiency is improved.

In the process of ice discharging, ice cubes slide from the conveying channel 2 onto the ice cube conveying belt 37 above the ice discharging frame 6, and in order to prevent the ice cubes from being damaged due to falling, the rail 27 is arranged on the outer side of the ice discharging frame 6, so that the quality and the quality of the ice cubes are ensured, and the safety is improved.

Different points 10: the speed reducer 4 is started during operation, the lower frame 8 is lifted up through the steel wire rope 13, the lower frame 8 and the ice cube houses form a closed space through the positioning pins 35, the position is locked, meanwhile, the lower frame 8 is buckled by the safety lock catch, the people do not need to worry about sliding down during ice making, and the personnel safety and the ice cube quality are ensured.

Different points 11: the water in the water tank can not only ensure the supply of ice making, but also circulate in the circulating pipe, so that the ice melting speed is increased, the water tank is used for multiple times, the energy is saved, the consumption is reduced, and the cost is saved.

The environment-friendly efficient energy-saving full-automatic ice maker has the advantages of high ice making and discharging speed, high degree of automation, workload reduction, improvement of more than 3 times of daily working efficiency, labor consumption of only 1/4 of the original labor consumption, cost saving and economic benefit improvement.

The environment-friendly efficient energy-saving full-automatic ice maker disclosed by the invention has the advantages that the ice cube houses 16 are made of aluminum plates or stainless steel, the surfaces are smooth, the temperature conduction is fast, the friction coefficient is small, and ice is conveniently discharged.

According to the invention, the side length of each upper side of the ice cube house 16 is only 1-30mm smaller than that of each lower side, and the whole ice cube house looks like a square ice cube, so that normal use is not affected.

The main compressor 18 is a screw type refrigeration compressor, the refrigeration capacity is high, the power is high, the hollow evaporator 17 is a trapezoid metal product with a hollow partition tooth-shaped inner cavity, the bottom evaporator plate 9 is a rectangular metal product with a hollow partition tooth-shaped inner cavity, the contact area between the inner cavity wall and the refrigerant is large, and the ice making speed is high.

In the present invention, the pipe 31 of the main compressor and the water inlet pipe 22 form a cross-net structure when viewed from above, as shown in fig. 4, so that the space is fully utilized and the occupied area is reduced.

The speed reducer 4 is connected with the lower frame 8 through the steel wire rope 13, and the steel wire rope 13 moves on the pulley 36, so that the speed reducer is convenient and labor-saving.

The invention arranges a sealing strip 28 at the lower edge of the ice making chamber 1, which has no leakage, seals cold air and quickens the ice making speed.

The technical means disclosed by the scheme of the invention is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features.

Claims (10)

1. An environment-friendly, efficient and energy-saving full-automatic ice maker is characterized in that: the ice making device comprises an ice making chamber, a conveying channel, a water tank, a speed reducer, a hydraulic cylinder, an ice outlet frame and a control system, wherein the speed reducer is arranged on the side face of the ice making chamber; the utility model provides a low-temperature water dispenser, including bottom evaporator board, lower frame side, speed reducer, pneumatic cylinder, ice-pushing device, rotatable ice pouring frame, ice-making room, auxiliary compressor, water pump, water tank, water pump, control system, heating system, etc. bottom evaporator board intercommunication auxiliary compressor is equipped with the spout between two adjacent draw-in grooves, and lower frame side passes through wire rope with the speed reducer to be connected, the pneumatic cylinder sets up in conveying passageway one side, connects the ice-pushing device on the telescopic link of pneumatic cylinder, the ice-pushing device is higher than lower frame height, the ice-making frame sets up at conveying passageway opposite side, is equipped with rotatable ice pouring frame between ice-making frame and the conveying passageway, and ice-making frame surface is equipped with the ice-making transmission band, and ice-making transmission band below is equipped with ice-making transmission band motor, ice-making room inside is a plurality of ice-making rooms, the ice-making room is the shape of four prismatic table, and ice-making room both sides face is hollow evaporator, and both sides face is the baffle, hollow evaporator intercommunication main compressor, be equipped with the circulating pipe inside, be equipped with the heater between the circulating pipe, every ice-making room top is equipped with the shower nozzle, the shower nozzle sets up on the inlet pipe, the inlet is connected with different water pumps in water tank, ice-making room bottom.

2. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: each side length above the ice cube house is 1-30mm smaller than each side length below.

3. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: and a hydraulic rod is connected below the ice discharging frame.

4. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: and a railing is arranged on the outer side of the ice outlet frame.

5. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: the main compressor is a screw refrigeration compressor.

6. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: the main compressor is connected with the hollow evaporator through a first pipeline.

7. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: and a sealing strip is arranged at the lower edge of the ice making chamber.

8. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: the ice pouring frame is provided with a slideway matched with the chute.

9. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: the auxiliary compressor is communicated with the bottom evaporator plate through a second pipeline.

10. The environmentally friendly, efficient and energy-saving full-automatic ice maker as claimed in claim 1, wherein: the hollow evaporator is a trapezoid metal product with a hollow partition tooth-shaped inner cavity.